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PROJECT NAME <br />SHEET TITLE <br />SHEET NUMBER <br />PROJECT TITLE <br />JOBSITE ADDRESS <br />JIMENEZ <br />RESIDENCE <br />4.400 DC kW <br />4.048 KW CEC-AC RATING <br />STRING INVERTER SYSTEM <br />1919 <br />N SPURGEON ST, <br />SANTA ANA, CA <br />92706 <br />CONTRACTOR <br />TITAN SOLAR POWER CA INC <br />525 W BASELINE ROAD <br />MESA, AZ 85210 <br />(855) 729-7652 <br />WWW.TITANSOLARPOWER.COM <br />PROJECT ID# TSP157692 <br />DATE DESCRIPTION <br />REVISION <br />DATE <br />DRAWN04-20-23 REVISION <br />DESIGN BY: RD <br />CAD <br />F O R C A L I I N C . <br />SHELLEY V CALUAG <br />cadforcali@gmail.com <br />323-698-4207 <br />SP: Ascend Energy <br />CRCR106 & Business and <br />Professions Code 5536.2 <br />RACKING <br />CERTIFICATION <br />S5 <br />FIRE CLASSIFICATION NOTES: <br />Per the UL certification attached, the EVEREST Racking is certified for UL 2703 Class A rating. <br />Hyperion HY-DH108P8-400 module also has a fire rating of Class A noted on Page E4- Module <br />Data sheet. Module Certification in compliance with UL1703 and UL 61730-2 provided on Page <br />E4.1 <br />· UL1703 <br />1 Scope <br />1.1 These requirements cover flat-plate photovoltaic modules and panels intended for <br />installation on or integral with buildings, or to be freestanding (that is, not attached to <br />buildings), in accordance with the National Electrical Code, NFPA 70, and Model Building <br />Codes. <br />1.2 These requirements cover modules and panels intended for use in systems with a maximum <br />system voltage of 1500 V or less. <br />1.3 These requirements also cover components intended to provide electrical connection to <br />and mounting facilities for flat-plate photovoltaic modules and panels. <br />1.4 These requirements do not cover: <br />a) Equipment intended to accept the electrical output from the array, such as power <br />conditioning units (inverters) and batteries; <br />b) Any tracking mechanism; <br />c) Cell assemblies intended to operate under concentrated sunlight; <br />d) Optical concentrators; or <br />e) Combination photovoltaic-thermal modules or panels. <br />· UL 61730-2 <br />1 Scope <br />The scope of IEC 61730-1 is also applicable to this part of IEC 61730. While IEC 61730-1 outlines <br />the requirements of construction, this part of the standard lists the tests a PV module is <br />required to fulfill for safety qualification. IEC 61730-2 is applied for safety qualification only in <br />conjunction with IEC 61730-1. <br />The sequence of tests required in this standard may not test for all possible safety aspects <br />associated with the use of PV modules in all possible applications. This standard utilizes the <br />best sequence of tests available at the time of its writing. There are some issues – such as the <br />potential danger of electric shock posed by a broken PV module in a high voltage system – <br />that should be addressed by the system design, location, restrictions on access and <br />maintenance procedures. <br />The objective of this standard is to provide the testing sequence intended to verify the safety <br />of PV modules whose construction has been assessed by IEC 61730-1. The test sequence <br />and pass criteria are designed to detect the potential breakdown of internal and external <br />components of PV modules that would result in fire, electric shock, and/or personal injury. <br />The standard defines the basic safety test requirements and additional tests that are a <br />function of the PV module end-use applications. Test categories include general inspection, <br />electrical shock hazard, fire hazard, mechanical stress, and environmental stress. <br />The additional testing requirements outlined in relevant ISO standards, or the national or local <br />codes which govern the installation and use of these PV modules in their intended locations, <br />should be considered in addition to the requirements contained within this standard. <br />1919 N Spurgeon <br />St06/15/23